现代电力2026,Vol.43Issue(1):60-71,12.DOI:10.19725/j.cnki.1007-2322.2023.0377
考虑碳排放交易和可再生能源时序出力重构的主动配电网最优经济调度
Optimal Economic Dispatching of Active Distribution Network Based on Carbon Emission Trading and Sequential Output Reconstruction of Renewable Energy
摘要
Abstract
With the gradual implementation of the"dual carbon"strategy,the introduction of carbon emission trading mechanism has become a central approach to realizing low carbon emission reduction.Moreover,the large-scale grid integration of intermittent energy sources results in a random operation state of the active distribution network.The simulation based on deterministic scenarios encounters difficulty in adapting to the complex power system operation mode.Starting with the description and analysis of uncertainty in renewable energy output,a stochastic differential equation model is employed to reconstruct its sequential output model.Based on the carbon emission trading mechanism,a three-stage ladder carbon emission trading cost model is then constructed,and the optimal economic dispatching model of active distribution network is proposed to minimize the operating cost.To address the challenging issue of probability constraint in scheduling model,the method of separated length transformation and convolution sequence operation is proposed to transform the chance constraint programming into easily solvable mixed integer linear programming.Finally,the proposed model is verified using active distribution system of T area,and the results demonstrate its feasibility and effectiveness.关键词
碳排放交易/时序出力重构/主动配电网/经济调度Key words
carbon emissions trading/sequential output reconstruction/active distribution network/economic dispatch分类
信息技术与安全科学引用本文复制引用
刘剑,徐兵,陈世龙,胡思磊,潘巍..考虑碳排放交易和可再生能源时序出力重构的主动配电网最优经济调度[J].现代电力,2026,43(1):60-71,12.基金项目
中国电力工程顾问集团有限公司集中开发科技项目(主动配电网规划平台开发与应用研究,GSKJ2-X01-2021).China Electric Power Engineering Consultants Group Limited for the Centralised Development of Technology Projects(Research on the development and application of active distribution network planning platform,GSKJ2-X01-2021). (主动配电网规划平台开发与应用研究,GSKJ2-X01-2021)
